DE280613C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The explosion turbine according to the present invention has two piston-like, turbine wheels delimiting the explosion space, which are slidably seated on a shaft, which one of them is taken along when they turn. The turbine wheels are held in the rest position by springs, at which the explosion space has the smallest dimensions. The running channels are with Slots in connection that penetrate the piston-like part of the turbine wheels and at whose rest position are closed by slotted discs that can rotate to a limited extent, which after a short shift of the turbine

! 5 wheels are turned to the open position and let the expansion gases escape from the explosion chamber. The turbine should serve especially for flying machines.

An embodiment of the explosive force

^2t > machine 'is illustrated in the drawing for example, and it shows:

FIGS. 1 and 2 each show a longitudinal section with a partial view of the rest position and the active position the machine.

3 shows a section through a turbine wheel with the blades omitted and the blades open Piston slots, '

4 shows a cross section according to AA of FIG. 3 with the piston slots closed.

The explosion engine has a cylindrical housing 1 open at both ends, in which In the middle is the explosion space, into which a needle valve 2 opens, which is used for Introduction of the operating medium serves as which crude oil and compressed air is provided. Of the The explosion space is located between two turbine wheels 3 'and 4', the helical ones Blades 3 and 4 are arranged so that they are acted on by the Explosive gases are rotated in the same sense. Those carrying the shovels Hubs of the turbine wheels are formed into pistons 3 'and 4', each with a circumference a sealing ring 5 are provided. There are radial slots 6 in the piston (Fig. 3 and 4) attached, which connect to the runner channels between the blades 3 and 4 (in Fig. 3 For the sake of clarity, they are drawn as if they had the piston wall at right angles would cut). On the hub of each turbine wheel there is a rotatable disk 7, which rests against the side of the piston in question facing away from the blade side and has the same number of radial slots 8 as the latter. There is a thumb 9 on each disc 7 (Fig. 4) attached, which protrudes through a recess of the hub in question and into a The longitudinal groove 10 of the shaft 11 engages, which axially penetrates the housing 1 and outside the same is rotatably mounted in two (only partially drawn) bearings 12. The longitudinal grooves each have a bend at the end directed towards the explosion space, in which the thumb in question 9 is at Rest position of the machine is located (Fig. 1 and 4), the discs 7 so set are that they close the piston slots 6 (Fig. 4). In the shaft 11 two are diametrically opposed

opposite longitudinal grooves 13 are provided and in the hub of each turbine wheel two corresponding longitudinal grooves 14 (Fig. 3) are attached, which are closed at their ends and ■ contain a number of balls X ^ , as indicated by some. These balls entrain the shaft when the turbine wheels rotate, while on the other hand they ensure that the turbine wheels can be moved easily on the shaft. The turbine wheels are under the action of springs 16 which surround the shaft 11, and each of which rests on the one hand on a ring 17 pushed onto the hub of the turbine wheel in question and on the other hand against a nut 18 screwed onto the shaft 11, which is secured by counter nuts 19 in its is secured in each position. The springs 16 strive to keep the turbine wheels in the rest position (FIG. 1); by adjusting the nuts 18 and 19 on the shaft 11 can. whose voltage can be regulated.

When operating the machine described, the crude oil is carried out by means of the compressed air the needle valve 2 is introduced into the explosion chamber in fine atomization, so arrives it explodes as a result of the high compression, and the expanding gases drift the two turbine wheels apart (Fig. 2), with the latter simultaneously in the same Set the sense (arrow in Fig. 4) in rotation, which is also made by the shaft 11. After the turbine wheels with their pistons have experienced a short shift, are by the thumbs 9 sliding in the longitudinal grooves 10, the disks 7 have been rotated so that that their slots 8 coincide with the piston slots 6 (Fig. 3), so that the explosion gases can gradually escape from the explosion chamber and the displacement of the turbine wheels is slowed down and last stops. The latter are then pushed back into their initial positions by the springs 16, with the exhaust gases located in it as a result of the narrowing of the explosion space pushed out through the slots 6 and 8 as possible. Just before the turbine wheels When they reach the initial position, the thumbs 9 slide into the bends in the grooves 10 and the disks 7 are rotated back into the closed positions. Then begins the described game all over again. The ones rotated rapidly by the explosions Turbine wheels will also continue to rotate during their backward thrust, so that the shaft 11 is in uninterrupted rotation is moved. The shaft may be outside of the bearings 12 at one or both ends be connected to a device to be driven.

The rotation of the disks 7 could also be effected in a different manner than that described by means of a device through which the timing of the rotation is regulated could be.

Claims (2)

Patent Claims: 1. Explosion turbine with the equipment opening into the explosion chamber feeding needle valve, characterized in that the cylindrical housing (1). both dig open and the explosion chamber of two piston-like turbine wheels (3, 3 ', 4, 4'), which are held in the rest position by adjustable springs (16) and can be moved sit on a shaft (11) coupled to them, the hubs of the turbine wheels that space on the sides of the blade rings (3, 4) facing away from the explosion space carrying sealing pistons (3 ', 4') which are attached to the spaces between the blades (3, 4) adjoining slots (6) which pass through when the turbine wheels are in the rest position Slotted disks (7) that can be rotated to a limited extent behind the piston are closed are, the whole thing in such a way that in an explosion the. Turbine wheels set in rotation in the same sense and at the same time be pushed apart, being after they have been displaced a short distance are, the discs (7) are rotated so that their slots (8) with the piston slots (6) collapse and the exhaust gases can escape from the explosion chamber, whereupon the turbine wheels are below Effect of the springs (16) pushed back to their initial positions and the discs (7) can be turned to the locking positions. 2. Explosive engine according to claim i, characterized in that the Shaft (11) and the hub of each turbine wheel has two longitudinal grooves (13 and 14), two of which are directed towards each other and contain balls that facilitate the displacement of the turbine wheels and take the shaft with it when the latter rotates. no 1 sheet of drawings.